Selection of suitable materials for the development of an innovative thermochromic Trombe wall

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY

Advances in Building Energy Research Pub Date : 2019-10-30 DOI:10.1080/17512549.2019.1684364

G. Pérez, V. R. Allegro, Carmen Alonso, Fernando Martín-Consuegra, I. Oteiza, B. Frutos, A. Guerrero

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引用次数: 9

Abstract

ABSTRACT An innovative system based on the Trombe Wall concept is under development to improve energy efficiency in buildings in different climatic conditions. The system takes advantage of the variable optical properties of a thermochromic mortar coating on the façade to optimize thermal behaviour. The mortar is based on the addition of organic thermochromic pigments to the cementitious matrix and is characterized by a high solar reflectance for temperatures higher than a nominal colour change value (Tc) and a low solar reflectance for lower temperatures. Materials potentially useful for this innovative system were analysed in this work. As prepared thermochromic mortar specimens, mortar specimens coated with different UV protecting products and mortar specimens covered by filter glasses with different optical responses were exposed to controlled outdoor environmental conditions during several days. Surface and environmental temperatures were monitored during the experiment. Moreover, reflectance spectra of the samples were recorded every day early in the morning, when the environmental temperature is significantly lower than Tc, and in the afternoon, when it is significantly higher than this value. Most suitable materials for the intended application were defined from an analysis of the optical and thermal properties of these specimens and their durability.

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选择合适的材料，开发一种创新的热致变色Trombe墙

一种基于特伦贝墙概念的创新系统正在开发中，以提高不同气候条件下建筑物的能源效率。该系统利用表面热致变色砂浆涂层的可变光学特性来优化热性能。这种砂浆是基于在胶凝基质中添加有机热致变色颜料，其特点是在高于标称颜色变化值(Tc)的温度下具有高太阳反射率，而在较低温度下具有低太阳反射率。在这项工作中分析了可能对这一创新系统有用的材料。作为制备的热致变色砂浆试件，涂覆不同防紫外线产品的砂浆试件和覆盖不同光学响应的滤光片的砂浆试件在受控的室外环境条件下暴露数天。在实验过程中监测表面温度和环境温度。并在每天清晨环境温度明显低于Tc时和下午环境温度明显高于Tc时分别记录样品的反射光谱。通过对这些样品的光学和热性能及其耐久性的分析，确定了最适合预期应用的材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Building Energy Research CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

4.80

自引率

5.00%

发文量